Triiodothyronine protects infarcted myocardium by reducing apoptosis and preserving mitochondria

Abstract

Myocardial infarction (MI) is a leading cause of heart failure, with thyroid hormone (TH) signaling playing a key role in heart function and postinfarct recovery. Despite evidence of TH administration's safety in cardiac patients, inconsistent therapeutic outcomes and limited understanding of its mechanisms hinder clinical translation. This study aims to investigate the long-term effect of acute triiodothyronine (T3) administration following MI and to elucidate the mechanisms of its cardioprotective actions. To this end, two doses (40 μg/kg) of T3 were administered immediately after injury and 24 h later in a cryoinjury mouse model of left ventricle (LV) infarction. Remarkably T3 administration significantly reduced scar expansion. Echocardiographic analysis conducted 28 days post-injury revealed that T3 administration improved LV remodeling and prevented LV hypertrophy. At molecular level, T3 administration strongly reduced apoptosis in the peri-infarcted area, without inducing cardiac cell proliferation. Furthermore, T3 prevented the accumulation of long-chain acylcarnitines and the subsequent mitochondrial damage. These findings demonstrate that acute T3 treatment following MI improves long-term LV function and reduces LV remodeling by limiting apoptosis in the peri-infarct region and by preserving mitochondrial function and structural integrity.